##// END OF EJS Templates
Adds "number of operations" and "number of variables" properties for the tests
Adds "number of operations" and "number of variables" properties for the tests

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TestAmdaResultParser.cpp
579 lines | 25.8 KiB | text/x-c | CppLexer
/ plugins / amda / tests / TestAmdaResultParser.cpp
#include "AmdaResultParser.h"
#include <Data/ScalarSeries.h>
#include <Data/SpectrogramSeries.h>
#include <Data/VectorSeries.h>
#include <QObject>
#include <QtTest>
namespace {
/// Path for the tests
const auto TESTS_RESOURCES_PATH
= QFileInfo{QString{AMDA_TESTS_RESOURCES_DIR}, "TestAmdaResultParser"}.absoluteFilePath();
QDateTime dateTime(int year, int month, int day, int hours, int minutes, int seconds)
{
return QDateTime{{year, month, day}, {hours, minutes, seconds}, Qt::UTC};
}
QString inputFilePath(const QString &inputFileName)
{
return QFileInfo{TESTS_RESOURCES_PATH, inputFileName}.absoluteFilePath();
}
template <typename T>
struct ExpectedResults {
ExpectedResults &setParsingOK(bool parsingOK)
{
m_ParsingOK = parsingOK;
return *this;
}
ExpectedResults &setXAxisUnit(Unit xAxisUnit)
{
m_XAxisUnit = std::move(xAxisUnit);
return *this;
}
ExpectedResults &setXAxisData(const QVector<QDateTime> &xAxisData)
{
m_XAxisData.clear();
// Converts QVector<QDateTime> to QVector<double>
std::transform(xAxisData.cbegin(), xAxisData.cend(), std::back_inserter(m_XAxisData),
[](const auto &dateTime) { return dateTime.toMSecsSinceEpoch() / 1000.; });
return *this;
}
ExpectedResults &setValuesUnit(Unit valuesUnit)
{
m_ValuesUnit = std::move(valuesUnit);
return *this;
}
ExpectedResults &setValuesData(QVector<double> valuesData)
{
m_ValuesData.clear();
m_ValuesData.push_back(std::move(valuesData));
return *this;
}
ExpectedResults &setValuesData(QVector<QVector<double> > valuesData)
{
m_ValuesData = std::move(valuesData);
return *this;
}
ExpectedResults &setYAxisEnabled(bool yAxisEnabled)
{
m_YAxisEnabled = yAxisEnabled;
return *this;
}
ExpectedResults &setYAxisUnit(Unit yAxisUnit)
{
m_YAxisUnit = std::move(yAxisUnit);
return *this;
}
ExpectedResults &setYAxisData(QVector<double> yAxisData)
{
m_YAxisData = std::move(yAxisData);
return *this;
}
/**
* Validates a DataSeries compared to the expected results
* @param results the DataSeries to validate
*/
void validate(std::shared_ptr<IDataSeries> results)
{
if (m_ParsingOK) {
auto dataSeries = dynamic_cast<T *>(results.get());
if (dataSeries == nullptr) {
// No unit detected, parsink ok but data is nullptr
// TODO, improve the test to verify that the data is null
return;
}
// Checks units
QVERIFY(dataSeries->xAxisUnit() == m_XAxisUnit);
QVERIFY(dataSeries->valuesUnit() == m_ValuesUnit);
auto verifyRange = [dataSeries](const auto &expectedData, const auto &equalFun) {
QVERIFY(std::equal(dataSeries->cbegin(), dataSeries->cend(), expectedData.cbegin(),
expectedData.cend(),
[&equalFun](const auto &dataSeriesIt, const auto &expectedX) {
return equalFun(dataSeriesIt, expectedX);
}));
};
// Checks x-axis data
verifyRange(m_XAxisData, [](const auto &seriesIt, const auto &value) {
return seriesIt.x() == value;
});
// Checks values data of each component
for (auto i = 0; i < m_ValuesData.size(); ++i) {
verifyRange(m_ValuesData.at(i), [i](const auto &seriesIt, const auto &value) {
auto itValue = seriesIt.value(i);
return (std::isnan(itValue) && std::isnan(value)) || seriesIt.value(i) == value;
});
}
// Checks y-axis (if defined)
auto yAxis = dataSeries->yAxis();
QCOMPARE(yAxis.isDefined(), m_YAxisEnabled);
if (m_YAxisEnabled) {
// Unit
QCOMPARE(yAxis.unit(), m_YAxisUnit);
// Data
QVERIFY(std::equal(yAxis.cbegin(), yAxis.cend(), m_YAxisData.cbegin(),
m_YAxisData.cend(), [](const auto &it, const auto &expectedVal) {
return it.first() == expectedVal;
}));
}
}
else {
QVERIFY(results == nullptr);
}
}
// Parsing was successfully completed
bool m_ParsingOK{false};
// Expected x-axis unit
Unit m_XAxisUnit{};
// Expected x-axis data
QVector<double> m_XAxisData{};
// Expected values unit
Unit m_ValuesUnit{};
// Expected values data
QVector<QVector<double> > m_ValuesData{};
// Expected data series has y-axis
bool m_YAxisEnabled{false};
// Expected y-axis unit (if axis defined)
Unit m_YAxisUnit{};
// Expected y-axis data (if axis defined)
QVector<double> m_YAxisData{};
};
} // namespace
Q_DECLARE_METATYPE(ExpectedResults<ScalarSeries>)
Q_DECLARE_METATYPE(ExpectedResults<SpectrogramSeries>)
Q_DECLARE_METATYPE(ExpectedResults<VectorSeries>)
class TestAmdaResultParser : public QObject {
Q_OBJECT
private:
template <typename T>
void testReadDataStructure()
{
// ////////////// //
// Test structure //
// ////////////// //
// Name of TXT file to read
QTest::addColumn<QString>("inputFileName");
// Expected results
QTest::addColumn<ExpectedResults<T> >("expectedResults");
}
template <typename T>
void testRead(AmdaResultParser::ValueType valueType)
{
QFETCH(QString, inputFileName);
QFETCH(ExpectedResults<T>, expectedResults);
// Parses file
auto filePath = inputFilePath(inputFileName);
auto results = AmdaResultParser::readTxt(filePath, valueType);
// ///////////////// //
// Validates results //
// ///////////////// //
expectedResults.validate(results);
}
private slots:
/// Input test data
/// @sa testReadScalarTxt()
void testReadScalarTxt_data();
/// Tests parsing scalar series of a TXT file
void testReadScalarTxt();
/// Input test data
/// @sa testReadSpectrogramTxt()
void testReadSpectrogramTxt_data();
/// Tests parsing spectrogram series of a TXT file
void testReadSpectrogramTxt();
/// Input test data
/// @sa testReadVectorTxt()
void testReadVectorTxt_data();
/// Tests parsing vector series of a TXT file
void testReadVectorTxt();
};
void TestAmdaResultParser::testReadScalarTxt_data()
{
testReadDataStructure<ScalarSeries>();
// ////////// //
// Test cases //
// ////////// //
// Valid files
QTest::newRow("Valid file")
<< QStringLiteral("ValidScalar1.txt")
<< ExpectedResults<ScalarSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"nT", true})
.setXAxisData({dateTime(2013, 9, 23, 9, 0, 30), dateTime(2013, 9, 23, 9, 1, 30),
dateTime(2013, 9, 23, 9, 2, 30), dateTime(2013, 9, 23, 9, 3, 30),
dateTime(2013, 9, 23, 9, 4, 30), dateTime(2013, 9, 23, 9, 5, 30),
dateTime(2013, 9, 23, 9, 6, 30), dateTime(2013, 9, 23, 9, 7, 30),
dateTime(2013, 9, 23, 9, 8, 30), dateTime(2013, 9, 23, 9, 9, 30)})
.setValuesData({-2.83950, -2.71850, -2.52150, -2.57633, -2.58050, -2.48325, -2.63025,
-2.55800, -2.43250, -2.42200});
QTest::newRow("Valid file (value of first line is invalid but it is converted to NaN")
<< QStringLiteral("WrongValue.txt")
<< ExpectedResults<ScalarSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"nT", true})
.setXAxisData({dateTime(2013, 9, 23, 9, 0, 30), dateTime(2013, 9, 23, 9, 1, 30),
dateTime(2013, 9, 23, 9, 2, 30)})
.setValuesData({std::numeric_limits<double>::quiet_NaN(), -2.71850, -2.52150});
QTest::newRow("Valid file that contains NaN values")
<< QStringLiteral("NaNValue.txt")
<< ExpectedResults<ScalarSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{("nT"), true})
.setXAxisData({dateTime(2013, 9, 23, 9, 0, 30), dateTime(2013, 9, 23, 9, 1, 30),
dateTime(2013, 9, 23, 9, 2, 30)})
.setValuesData({std::numeric_limits<double>::quiet_NaN(), -2.71850, -2.52150});
// Valid files but with some invalid lines (wrong unit, wrong values, etc.)
QTest::newRow("No unit file")
<< QStringLiteral("NoUnit.txt")
<< ExpectedResults<ScalarSeries>{}.setParsingOK(true).setXAxisUnit(Unit{"", true});
QTest::newRow("Wrong unit file")
<< QStringLiteral("WrongUnit.txt")
<< ExpectedResults<ScalarSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"", true})
.setXAxisData({dateTime(2013, 9, 23, 9, 0, 30), dateTime(2013, 9, 23, 9, 1, 30),
dateTime(2013, 9, 23, 9, 2, 30)})
.setValuesData({-2.83950, -2.71850, -2.52150});
QTest::newRow("Wrong results file (date of first line is invalid")
<< QStringLiteral("WrongDate.txt")
<< ExpectedResults<ScalarSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"nT", true})
.setXAxisData({dateTime(2013, 9, 23, 9, 1, 30), dateTime(2013, 9, 23, 9, 2, 30)})
.setValuesData({-2.71850, -2.52150});
QTest::newRow("Wrong results file (too many values for first line")
<< QStringLiteral("TooManyValues.txt")
<< ExpectedResults<ScalarSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"nT", true})
.setXAxisData({dateTime(2013, 9, 23, 9, 1, 30), dateTime(2013, 9, 23, 9, 2, 30)})
.setValuesData({-2.71850, -2.52150});
QTest::newRow("Wrong results file (x of first line is NaN")
<< QStringLiteral("NaNX.txt")
<< ExpectedResults<ScalarSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"nT", true})
.setXAxisData({dateTime(2013, 9, 23, 9, 1, 30), dateTime(2013, 9, 23, 9, 2, 30)})
.setValuesData({-2.71850, -2.52150});
QTest::newRow("Invalid file type (vector)")
<< QStringLiteral("ValidVector1.txt")
<< ExpectedResults<ScalarSeries>{}.setParsingOK(true).setXAxisUnit(Unit{"nT", true});
// Invalid files
QTest::newRow("Invalid file (unexisting file)")
<< QStringLiteral("UnexistingFile.txt")
<< ExpectedResults<ScalarSeries>{}.setParsingOK(false);
QTest::newRow("Invalid file (file not found on server)")
<< QStringLiteral("FileNotFound.txt")
<< ExpectedResults<ScalarSeries>{}.setParsingOK(false);
}
void TestAmdaResultParser::testReadScalarTxt()
{
testRead<ScalarSeries>(AmdaResultParser::ValueType::SCALAR);
}
void TestAmdaResultParser::testReadSpectrogramTxt_data()
{
testReadDataStructure<SpectrogramSeries>();
// ////////// //
// Test cases //
// ////////// //
// Valid files
QTest::newRow("Valid file (three bands)")
<< QStringLiteral("spectro/ValidSpectrogram1.txt")
<< ExpectedResults<SpectrogramSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"t", true})
.setXAxisData({dateTime(2012, 11, 6, 9, 14, 35), dateTime(2012, 11, 6, 9, 16, 10),
dateTime(2012, 11, 6, 9, 17, 45), dateTime(2012, 11, 6, 9, 19, 20),
dateTime(2012, 11, 6, 9, 20, 55)})
.setYAxisEnabled(true)
.setYAxisUnit(Unit{"eV"})
.setYAxisData({5.75, 7.6, 10.05}) // middle of the intervals of each band
.setValuesUnit(Unit{"eV/(cm^2-s-sr-eV)"})
.setValuesData(QVector<QVector<double> >{
{16313.780, 12631.465, 8223.368, 27595.301, 12820.613},
{15405.838, 11957.925, 15026.249, 25617.533, 11179.109},
{8946.475, 18133.158, 10875.621, 24051.619, 19283.221}});
auto fourBandsResult
= ExpectedResults<SpectrogramSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"t", true})
.setXAxisData({dateTime(2012, 11, 6, 9, 14, 35), dateTime(2012, 11, 6, 9, 16, 10),
dateTime(2012, 11, 6, 9, 17, 45), dateTime(2012, 11, 6, 9, 19, 20),
dateTime(2012, 11, 6, 9, 20, 55)})
.setYAxisEnabled(true)
.setYAxisUnit(Unit{"eV"})
.setYAxisData({5.75, 7.6, 10.05, 13.}) // middle of the intervals of each band
.setValuesUnit(Unit{"eV/(cm^2-s-sr-eV)"})
.setValuesData(QVector<QVector<double> >{
{16313.780, 12631.465, 8223.368, 27595.301, 12820.613},
{15405.838, 11957.925, 15026.249, 25617.533, 11179.109},
{8946.475, 18133.158, 10875.621, 24051.619, 19283.221},
{20907.664, 32076.725, 13008.381, 13142.759, 23226.998}});
QTest::newRow("Valid file (four bands)") << QStringLiteral("spectro/ValidSpectrogram2.txt")
<< fourBandsResult;
QTest::newRow("Valid file (four unsorted bands)")
<< QStringLiteral("spectro/ValidSpectrogram3.txt")
<< fourBandsResult; // Bands and values are sorted
auto nan = std::numeric_limits<double>::quiet_NaN();
auto nanValuesResult
= ExpectedResults<SpectrogramSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"t", true})
.setXAxisData({dateTime(2012, 11, 6, 9, 14, 35), dateTime(2012, 11, 6, 9, 16, 10),
dateTime(2012, 11, 6, 9, 17, 45), dateTime(2012, 11, 6, 9, 19, 20),
dateTime(2012, 11, 6, 9, 20, 55)})
.setYAxisEnabled(true)
.setYAxisUnit(Unit{"eV"})
.setYAxisData({5.75, 7.6, 10.05, 13.}) // middle of the intervals of each band
.setValuesUnit(Unit{"eV/(cm^2-s-sr-eV)"})
.setValuesData(
QVector<QVector<double> >{{nan, 12631.465, 8223.368, 27595.301, 12820.613},
{15405.838, nan, nan, 25617.533, 11179.109},
{8946.475, 18133.158, 10875.621, 24051.619, 19283.221},
{nan, nan, nan, nan, nan}});
QTest::newRow("Valid file (containing NaN values)")
<< QStringLiteral("spectro/ValidSpectrogramNaNValues.txt") << nanValuesResult;
QTest::newRow("Valid file (containing fill values)")
<< QStringLiteral("spectro/ValidSpectrogramFillValues.txt")
<< nanValuesResult; // Fill values are replaced by NaN values in the data series
QTest::newRow("Valid file (containing data holes, resolution = 3 minutes)")
<< QStringLiteral("spectro/ValidSpectrogramDataHoles.txt")
<< ExpectedResults<SpectrogramSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"t", true})
.setXAxisData({dateTime(2011, 12, 10, 12, 10, 54), //
dateTime(2011, 12, 10, 12, 13, 54), // Data hole
dateTime(2011, 12, 10, 12, 16, 54), // Data hole
dateTime(2011, 12, 10, 12, 17, 23), //
dateTime(2011, 12, 10, 12, 20, 23), // Data hole
dateTime(2011, 12, 10, 12, 23, 23), // Data hole
dateTime(2011, 12, 10, 12, 23, 51), //
dateTime(2011, 12, 10, 12, 26, 51), // Data hole
dateTime(2011, 12, 10, 12, 29, 51), // Data hole
dateTime(2011, 12, 10, 12, 30, 19), //
dateTime(2011, 12, 10, 12, 33, 19), // Data hole
dateTime(2011, 12, 10, 12, 35, 04), //
dateTime(2011, 12, 10, 12, 36, 41), //
dateTime(2011, 12, 10, 12, 38, 18), //
dateTime(2011, 12, 10, 12, 39, 55)})
.setYAxisEnabled(true)
.setYAxisUnit(Unit{"eV"})
.setYAxisData({16485.85, 20996.1}) // middle of the intervals of each band
.setValuesUnit(Unit{"eV/(cm^2-s-sr-eV)"})
.setValuesData(QVector<QVector<double> >{{2577578.000, //
nan, // Data hole
nan, // Data hole
2314121.500, //
nan, // Data hole
nan, // Data hole
2063608.750, //
nan, // Data hole
nan, // Data hole
2234525.500, //
nan, // Data hole
1670215.250, //
1689243.250, //
1654617.125, //
1504983.750},
{2336016.000, //
nan, // Data hole
nan, // Data hole
1712093.125, //
nan, // Data hole
nan, // Data hole
1614491.625, //
nan, // Data hole
nan, // Data hole
1764516.500, //
nan, // Data hole
1688078.500, //
1743183.500, //
1733603.250, //
1708356.500}});
QTest::newRow(
"Valid file (containing data holes at the beginning and the end, resolution = 4 minutes)")
<< QStringLiteral("spectro/ValidSpectrogramDataHoles2.txt")
<< ExpectedResults<SpectrogramSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"t", true})
.setXAxisData({
dateTime(2011, 12, 10, 12, 2, 54), // Data hole
dateTime(2011, 12, 10, 12, 6, 54), // Data hole
dateTime(2011, 12, 10, 12, 10, 54), //
dateTime(2011, 12, 10, 12, 14, 54), // Data hole
dateTime(2011, 12, 10, 12, 17, 23), //
dateTime(2011, 12, 10, 12, 21, 23), // Data hole
dateTime(2011, 12, 10, 12, 23, 51), //
dateTime(2011, 12, 10, 12, 27, 51), // Data hole
dateTime(2011, 12, 10, 12, 30, 19), //
dateTime(2011, 12, 10, 12, 34, 19), // Data hole
dateTime(2011, 12, 10, 12, 35, 04), //
dateTime(2011, 12, 10, 12, 36, 41), //
dateTime(2011, 12, 10, 12, 38, 18), //
dateTime(2011, 12, 10, 12, 39, 55),
dateTime(2011, 12, 10, 12, 43, 55), // Data hole
dateTime(2011, 12, 10, 12, 47, 55), // Data hole
dateTime(2011, 12, 10, 12, 51, 55), // Data hole
dateTime(2011, 12, 10, 12, 55, 55), // Data hole
dateTime(2011, 12, 10, 12, 59, 55) // Data hole
})
.setYAxisEnabled(true)
.setYAxisUnit(Unit{"eV"})
.setYAxisData({16485.85, 20996.1}) // middle of the intervals of each band
.setValuesUnit(Unit{"eV/(cm^2-s-sr-eV)"})
.setValuesData(QVector<QVector<double> >{{
nan, // Data hole
nan, // Data hole
2577578.000, //
nan, // Data hole
2314121.500, //
nan, // Data hole
2063608.750, //
nan, // Data hole
2234525.500, //
nan, // Data hole
1670215.250, //
1689243.250, //
1654617.125, //
1504983.750, //
nan, // Data hole
nan, // Data hole
nan, // Data hole
nan, // Data hole
nan // Data hole
},
{
nan, // Data hole
nan, // Data hole
2336016.000, //
nan, // Data hole
1712093.125, //
nan, // Data hole
1614491.625, //
nan, // Data hole
1764516.500, //
nan, // Data hole
1688078.500, //
1743183.500, //
1733603.250, //
1708356.500, //
nan, // Data hole
nan, // Data hole
nan, // Data hole
nan, // Data hole
nan // Data hole
}});
// Invalid files
QTest::newRow("Invalid file (inconsistent bands)")
<< QStringLiteral("spectro/InvalidSpectrogramWrongBands.txt")
<< ExpectedResults<SpectrogramSeries>{}.setParsingOK(false);
}
void TestAmdaResultParser::testReadSpectrogramTxt()
{
testRead<SpectrogramSeries>(AmdaResultParser::ValueType::SPECTROGRAM);
}
void TestAmdaResultParser::testReadVectorTxt_data()
{
testReadDataStructure<VectorSeries>();
// ////////// //
// Test cases //
// ////////// //
// Valid files
QTest::newRow("Valid file")
<< QStringLiteral("ValidVector1.txt")
<< ExpectedResults<VectorSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"nT", true})
.setXAxisData({dateTime(2013, 7, 2, 9, 13, 50), dateTime(2013, 7, 2, 9, 14, 6),
dateTime(2013, 7, 2, 9, 14, 22), dateTime(2013, 7, 2, 9, 14, 38),
dateTime(2013, 7, 2, 9, 14, 54), dateTime(2013, 7, 2, 9, 15, 10),
dateTime(2013, 7, 2, 9, 15, 26), dateTime(2013, 7, 2, 9, 15, 42),
dateTime(2013, 7, 2, 9, 15, 58), dateTime(2013, 7, 2, 9, 16, 14)})
.setValuesData(
{{-0.332, -1.011, -1.457, -1.293, -1.217, -1.443, -1.278, -1.202, -1.22, -1.259},
{3.206, 2.999, 2.785, 2.736, 2.612, 2.564, 2.892, 2.862, 2.859, 2.764},
{0.058, 0.496, 1.018, 1.485, 1.662, 1.505, 1.168, 1.244, 1.15, 1.358}});
// Valid files but with some invalid lines (wrong unit, wrong values, etc.)
QTest::newRow("Invalid file type (scalar)")
<< QStringLiteral("ValidScalar1.txt")
<< ExpectedResults<VectorSeries>{}
.setParsingOK(true)
.setXAxisUnit(Unit{"nT", true})
.setXAxisData({})
.setValuesData(QVector<QVector<double> >{{}, {}, {}});
}
void TestAmdaResultParser::testReadVectorTxt()
{
testRead<VectorSeries>(AmdaResultParser::ValueType::VECTOR);
}
QTEST_MAIN(TestAmdaResultParser)
#include "TestAmdaResultParser.moc"